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BIBLIOGRAPHY OF PUBLICATIONS OF 137CESIUM STUDIES RELATED TO EROSION AND SEDIMENT DEPOSITION(1)

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Jerry C. Ritchie
United States Department of Agriculture
Agricultural Research Service
Hydrology and Remote Sensing Laboratory
BARC-West, Bldg. 007
Beltsville, MD 20705 USA
Carole A. Ritchie
Botanical Consultant
12224 Shadetree Lane
Laurel, MD 20708 USA




USDA-ARS
Hydrology and Remote Sensing Laboratory
Occasional Paper
HRSL-2008-02
December 15, 2008



Please provide citations for any missing publications to Jerry C. Ritchie (jerry.ritchie@ars.usda.gov).


1. INTRODUCTION

Soil erosion and its subsequent redeposition across the landscape is a major concern around the world. A quarter century of research has shown that measurements of the spatial patterns of radioactive fallout 137Cesium can be used to measure soil erosion and sediment deposition on the landscape. The 137Cs technique is the only technique that can be used to make actual measurements of soil loss and redeposition quickly and efficiently. By understanding the background for using the 137Cs technique to study erosion and sediment deposition on the landscape, scientists can obtain unique information about the landscape that can help them plan techniques to conserve the quality of the landscape. Research should continue on the development of the technique so that it can be used more extensively to understand the changing landscape.

Figure 1. Number of publications per year of 137Cs studies related to erosion and sedimentation.
Figure 1. Number of publications per year of 137Cs studies related to erosion and sedimentation.

On 16 July 1945 at 1230 Greenwich Civil Time, nuclear weapon tests were begun that have released 137Cs and other radioactive nuclides into the environment. Over the 50 years since this first test, much research has been done to understand the movement and fate of 137Cs in the environment. Many of these studies are critical for understanding the application of 137Cs to the study of soil erosion and the subsequent redeposition of the eroded particles on the landscape. This bibliography presents significant background publications that are useful to studies of erosion and sediment deposition using 137Cs. The bibliography also includes citations of reported studies of the use of 137Cs to measure either erosion or sediment deposition. While the bibliography is extensive, there are certainly publications that we have missed. There has been a rapid increase in publication related to the use of 137Cs related to the erosion and sedimentation (Fig. 1). However, we feel that this bibliography does demonstrate the widespread use and acceptance of 137Cs for measuring erosion and sediment deposition. We hope it will also be useful to those using or preparing to use 137Cs and will help promote the use of 137Cs in erosion and sediment deposition research and measurements.

2. BIBLIOGRAPHY (click on a letter to jump to the corresponding alphabetic grouping)

 

A

B

C

D

E

F

G

H

I

J

K

L

M

N

O

P

Q

R

S

T

U

V

W

X

Y

Z

 

 

A

Aarkrog, A. 1988. Radiological impact of Chernobyl debris compared with that from nuclear weapons fallout. Journal of Environmental Radioactivity 6(2):151-162.

Aarkrog, A., Q. Chen, H. Dahlgaard, S.P. Nielsen, A. Trapeznikov, and V. Pozolotina. 1997. Evidence of 99Tc in Ural river sediments. Journal of Environmental Radioactivity 37(2):201‑213.

Aarkrog, A., G. Dahlgaard, L. Hallstadius, H. Hansen, and E. Holm. 1983. Radiocesium from Sellafield effluents in Greenland water. Nature 304:49-51.

Aarkrog, A., G. Dahlgaard, E.N. Karavaeva, N.V. Kulikov, K. Mittenar, I.V. Milchanov, S.P. Nielsen, V.N. Pozolotina, and G.G. Polikarpov. 1992. Long-lived radionuclide concentration in the soil and trees in nuclear accident area in the southern Urals. Ékologiya 4:50-55. (Russian)

Aarkrog, A., H. Dahlgaard, S.P. Nielsen, V.N. Pozolotina, I.V. Molchanova, E.N. Karavaeva, P.Y. Yushkov, and A.V. Trapeznikov. 1998. Study on the contribution of major nuclear incidents to radioactive contamination of the Ural region. Russian Journal of Ecology 29(1):31‑37. translated from Ékologiya (1998) 1:36‑42 (Russian)

Aarkrog, A., H. Dahlgaard, S.P. Nielsen, A.V. Trapeznikov, I.V. Molchanova, V.N. Pozolotina, E.N. Karavaeva, P.I. Yushkov, and G.G. Polikarpov. 1997. Radioactive inventories from the Kyshtym and Karachay accidents: estimates based on soil samples collected in the South Urals (1990‑1995). Science of the Total Environmental 201(2):137‑154.

Aalto, R., and W. Dietrich. 2005. Sediment accumulation determined with 210Pb geochronology for Strickland River flood plains, Papua New Guinea, p. 303-309. In: D.E. Walling and A.J. Horowitz(eds.). Sediment Budgets 1. International Association of Hydrological Sciences Publication 291, Wallingford, UK, IAHS Press.

Abbene, I.J., S.J. Culver, D.R. Corbett, M.A. Buzas, and L.S. Tully. 2006. Distribution of foraminifera in Pamlico Sound, North Carolina, over the past century. Journal of Foraminiferal Research 36(2):135‑151.

Ab‑Razak, I. A., A. Li, and E.R. Christensen. 1996. Association of PAHs, PCBs, 137Cs, and 210Pb with clay, silt, and organic carbon in sediments. Water Science Technology 34(7/8):29‑35.

Absalom, J. P., N.M.J. Crout, and S.D. Young. 1996. Modeling radiocesium fixation in upland organic soils of northwest England. Environmental Science and Technology 30(9):2735‑2741.

Absalom, J.P., S.D. Young and N.M.J. Crout. 1995. Radio‑caesium fixation dynamics: Measurement in six Cumbrian soils. European Journal of Soil Science 46:461‑469.

Absalom, J.P., S.D. Young, N.M.J. Crout, A.F. Nisbet, R.F.M. Woodman, E. Smolders, and A.G. Gillett. 1999. Predicting soil to plant transfer of radiocesium using soil characteristics. Environmental Science and Technology 33(8):1218‑1223.

Absalom, J.P., S.D. Young, N.M.J. Crout, A. Sanchez, S.M. Wright, E. Smolders, A.F. Nisbet, and A.G. Gillett. 2001. Predicting the transfer of radiocaesium from organic soils to plants using soil characteristics. Journal of Environmental Radioactivity 52(1):31‑43.

Abril, J.M. 2004. Constraints on the use of Cs‑137 as a time‑marker to support CRS and SIT chronologies. Environmental Pollution 129(1):31‑37.

Abril, J.M. 2003. Difficulties in interpreting fast mixing in the radiometric dating of sediments using Pb‑210 and Cs‑137. Journal of Paleolimnology 30(4):407‑414.

Abril, J.M. and E. Fraga. 1996. Some physical and chemical features of the variability of Kd distribution coefficients for radionuclides. Journal of Environmental Radioactivity 30(3):253-270.

Abril, J.M., and M. García-Leon. 1994. The integrated atmospheric flux effect in a radiogeochronological model. Journal of Environmental Radioactivity 24:65-79.

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Abril, J.M., M. García-Leon, R. García-Tenorio, C.I. Sánchez, and F. El-Daoushy. 1992. Dating of marine sediments by an incomplete mixing model. Journal of Environmental Radioactivity 15:135-151.

Ackermann, F., H. Bergmann, and U. Schlieichert. 1983. Monitoring of heavy metals in coastal and estuarine sediments ‑ A question of grain‑size: <20 Fm versus <60 Fm. Environmental Technology Letters 4:317‑328.

Adamo, P., M. Arienzo, M. Pugliese, V. Roca, and P. Violante. 2004. Accumulation history of radionuclides in the lichen Stereocaulon vesuvianum from Mt. Vesuvius (south Italy). Environmental Pollution 127(3):455‑461.

Adriano, D., G.D. Hoyt, and J.E. Pinder III. 1981. Fallout cesium-137 on a forest ecosystem in the vicinity of a nuclear reprocessing plat. Health Physics 40:369-376.

Afferden, M., A.M. van^Hansen, and C.C. Fuller. 2005. Reconstruction of historical atmospheric deposition of DDT in the Zempoala Lagoon, in the center of Mexico. (Reconstruccion de la deposicion atmosferica historica de DDT en la laguna de Zempoala en el centro de Mexico). Ingenieria Hidraulica en Mexico 20(3):71‑83.

Agapkina, G.I. 2002. Cs‑137 in the liquid phase of soils under natural biocenoses. Eurasian Soil Science 35(9):996‑1002.

Agapkina, G.I., A.I. Shcheglov, F.A. Tikhomirov, and L.N. Meculova. 1998. Dynamics of Chernobyl‑fallout radionuclides in soil solutions of forest ecosystems. Chemosphere 36(4/5):1125‑1130.

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Ageets, V.Yu. 1996. Accumulation of the radionuclides caesium‑137 and strontium‑90 in farm crops depending on soil properties. Pochvovedenie I agrokhimiya 29:249‑257 (Russian)

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Agudo, E. Garcia. 1998. Global distribution of 137Cs inputs for soil erosion and sedimentation studies, p. 117‑121. In: International Atomic Energy Agency (ed), Use of 137Cs in the Study of Soil Erosion and Sedimentation, IAEA‑TECDOC‑1028, Vienna, Austria.

Aharoni, C., N.S. Pasricha, and D.L. Sparks. 1992. Adsorption and desorption kinetics of cesium in an organic matter-rich soil saturated with different cations. Soil Science 156:233-239.

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Ajayi, I.R., H.W. Fischer, A. Burak, A. Qwasmeh, and B. Tabot. 2007. Concentration and vertical distribution of Cs-137 in the undisturbed soil of southwestern Nigeria. Health Physics 92(1):73-77.

Ajayi, O.S., S.B. Lbikunle, and T.J. Ojo. 2008. An assessment of natural radioactivity of soils and its external radiological impact in southwestern Nigeria. Health Physics 94(6):558-566.

Akram, M., R.M. Qureshi, A. Nasir, and T.J. Solaija. 2007. Determination of gamma-emitting radionuclides in the inter-tidal sediments off Balochistan (Pakistan) Coast, Arabian Sea. Radiation Protection Dosimetry 123(2):268-273.

Akata, N., H. Hasegawa, H. Kawabata, Y. Chikuchi, T. Sato, Y. Ohtsuka, K. Kondo, and S. Hisamatsu. 2007. Deposition of 137Cs in Rokkasho, Japan and its relation to Asian dust. Journal of Environmental Radioactivity 95(1):1-9.

Akers, C.R. 1976. Sedimentation of a flatland watershed in Louisiana. Third Interagency Sedimentation Conference 1:174-181.

Akhtyrtsev, B.E., A.B. Akhtyrtsev, and L.A. Yablonskikh. 1999. Content and vertical distribution of heavy metals and radionuclides in hydromorphic soils of the forest‑steppe zone of the Russian Plain. Eurasian Soil Science 32(4):394‑403.

Alam, M.N., M.I. Chowdhury, M. Kamal, S. Ghose, N. Mahmmod, A. Matin, and S.Q. Saikat. 1997. Radioactivity in sediments of the Karnaphuli River Estuary and the Bay of Bengal. Health Physics 73(2):385‑387.

Alam, M. N., M.I. Chowdhury, M., Zafar, M. Kamal, S. Ghose, and A.H.M. Kamal. 1998. Radionuclide concentrations in salt pans in the coastal area of Cox's Bazar, Bangladesh. Journal of Environmental Radioactivity 41(3):257‑267.

Al-Azmi, D., A.M. Sabed, and H.A. Yatim. 2001. Variations in the 7Be concentrations in the atmosphere of Kuwait during the period 1994 to 1998. Applied Radiation and Isotopes 55:413-417. 426.

Albers, B.P., R. Rackwitz, S. Kleinschroth, and K. Bunzl. 2000. Spatial variability of 137Cs and 40K activity concentrations in soils and plants of alpine pastures: effects of micro- and meso-topography, p. 537-548. In: B. Markert, and K. Friese (eds.) Trace Elements, Elsevier, Amsterdam.

Albers, B.P., R. Rackwitz, W. Schimmack, and K. Bunzl. 1998. Transect survey of radiocesium in soils and plants of two alpine pastures. Science of the Total Environment 216(1‑2):159‑172.

Alberts, J.J., J.W. Bowling, and K.A. Orandini. 1987. The effect of seasonal anoxia on the distribution of 238Pu, 239,240Pu, 241Am, 244Cm, and 137Cs in pond systems of the southeastern United States, pp. 371-390. In: J.E. Pinder, III, J.J. Alberts, K.W. McLeod and R.G. Schreckize (eds.), Environmental Research on Actinide Elements, US Department of Energy CONF-841142, Washington, DC.

Alberts, J.J., and R.N. Muller. 1979. The distribution of 239,240Pu, 238Pu, and 137Cs in various particle size classes of Lake Michigan sediments. Journal of Environmental Quality 8:20-22.

Alberts, J.J., L.J. Tilly, and T.J. Virgerstad. 1979. Seasonal cycling of cesium-137 in a reservoir. Science 203:649-651.

Alberts, J.J., and M.A. Wahlgren. 1984. Concentration of 239,240Pu, 137Cs, and 90Sr in the waters of the Laurentian Great Lakes. Comparison of 1973 and 1976 values. Environmental Science and Technology 15:94‑98.

Alberts, J.J., M.A. Wahlgren, K.A. Orlandini, and C.A. Durbahn. 1989. The distribution of 239,240Pu, 238Pu, 241Am and 137Cs among chemically-defined components of sediments, settling particles and net plankton of Lake Michigan. Journal of Environmental Radioactivity 9:89-103.

Albrecht, A. 1999. Radiocesium and Pb‑210 in sediments, soils and surface waters of a high alpine catchment: A mass balance approach relevant to radionuclide migration and storage. Aquatic Science 61(1):1‑22.

Albrecht, A., P. Reichert, J. Beer, and A. Luck. 1995. Evaluation of the importance of reservoir sediments a sinks for reactor-derived radionuclides in riverine systems. Journal of Environmental Radioactivity 28:239-269.

Albrecht, A., R. Reiser, A. Luck, J.A. Stoll, and W. Giger. 1998. Radiocesium dating of sediments from lakes and reservoirs of different hydrological regimes. Environmental Science and Technology 32(13):1882‑1887.

Aldridge, J.N., P. Kershaw, J. Brown, D. McCubbin, K.S. Leonard, and E.F. Young. 2003. Transport of plutonium (Pu‑239/240) and caesium (Cs‑137) in the Irish Sea: comparison between observations and results from sediment and contaminant transport modelling. Continental Shelf Research 23(9):869‑899.

Aleksan'yan, O.M. 1978. A study of the vertical distribution of 90Sr, and 137Cs in bottom sediments of a sea of Azov, USSR. Ékologiya 5:95-97. (Russian)

Aleksan'yan, O.M., and Y.Y Katsnel'son. 1979. Radioactive pollution of bottom sediments and its prevention. Soviet Journal of Ecology 10:243-245.

Alexander, C.R., R.F. Lee, D.T. Burton, and L.W. Hall Jr. 2005. An integrated case study for evaluating the impacts of an oil refinery effluent on aquatic biota in the Delaware River: sediment core studies. Human and Ecological Risk Assessment 11(4):861-877.

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Al Hamarneh, I., A. Wreikat, and K. Toukan. 2003. Radioactivity concentrations of K‑40, Cs‑134, Cs‑137, Sr‑90, Am‑241, Pu‑238 and Pu239+240 radionuclides in Jordanian soil samples. Journal of Environmental Radioactivity 67(1):53‑67.

Alhonen, P. 1979. The sedimentary record of the cultural eutrophication and pollution of lakes in Finland. Archives of Hydrobiologia 86:13‑26.

Aliyev, D.A., M.A. Abdullayev, and A.T. Tagiyev. 1977. Distribution of Sr90 and Cs137 in plowed soils of the dry (subtropical) steppe zone of the lesser Caucasus in the Azerbaijan SSR. Pochvovedeniye 7:34-35.

Al-Jundi, J., K. Randle, L.G. Earwaker, and J.R. West. 1993. Factors influencing the uptake of heavy metals and radionuclides in the Ribble estuary. In: Proceedings of the Inland and Coastal Water Quality: Measurements and Modelling, Environmental Physics Conference, London, September 1993.

Al‑Kahtani, S.A., M.A. Farouk, and A.A. Ai‑Zahrani. 2001. Radioactivity levels in soil of three selected sites at and around Riyadh City. Journal of Radioanalytical and Nuclear Chemistry 250(1):93‑95.

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Allison, M.A., G.C. Kineke, E.S. Gordon, and M.A. Goni. 2000. Development and reworking of a seasonal flood deposit on the inner continental shelf off the Atchafalaya River. Continental Shelf Research 20(16):2267‑2294.

Allison, M.A., S.A. Kuehl, T.C. Martin, and A. Hassan. 1998. The importance of floodplain sedimentation for river sediment budgets and terrigenous inputs to the oceans: Insights from the Brahmaputra-Jamunsa River. Geology 26(2):175-178.

Allison, M.A. and M.T. Lee. 2004. Sediment exchange between Amazon mudbanks and shore‑fringing mangroves in French Guiana. Marine Geology 208(2‑4):169‑190.

Allison, R.J. 1992. Slopes and slope processes: review. Progress in Physics Geology 15:423-427.

Al‑Masri, M.S. 2006. Vertical distribution and inventories of Cs‑137 in the Syrian soils of the eastern Mediterranean region. Journal of Environmental Radioactivity 86(2):187‑198.

Al‑Masri, M.S., A. Aba, H. Khalil, and Z. Al‑Hares. 2002. Sedimentation rates and pollution history of a dried lake: Al‑Oteibeh Lake. Science of the Total Environment 293(1‑3):177‑189.

Almgren, S., and M. Isaksson. 2006. Vertical migration studies of 137Cs from nuclear weapons fallout and the Chernobyl accident. Journal of Environmental Radioactivity 91(1-2):90-102.

 

Almgren, S., E. Nilsson, B. Erlandsson, and M Isaksson. 2006. GIS supported calculations of 137Cs deposition in sweden based on precipitation data. Science of the Total Environment 368(2‑3):804‑813.

Alongi, D.M., G. Wattayakorn, J. Pfitzner, F. Tirendi, I. Zagorskis, G.J. Brunskill, A. Davidson, and B.F. Clough. 2001. Organic carbon accumulation and metabolic pathways in sediments of mangrove forests in southern Thailand. Marine Geology 179(1‑2):85‑103.

Alonso‑Hernandez, C.M., H. Cartas‑Aguila, M. Diaz‑Asencio, A. Munoz‑Caravaca, J. Martin‑Perez, and R. Sibello‑Hernandez. 2006. Atmospheric deposition of Cs‑137 between 1994 and 2002 at Cienfuegos, Cuba. Journal of Environmental Radioactivity 88(2):199‑204.

Alonso Hernández, C.M., H. Cartas Águila, M. Díaz Asencio, and A. Muñoz Caravaca. 2004. Reconstruction of 137Cs signal in Cuba using 7Be as tracer of vertical transport processes in the atmosphere. Journal of Environmental Radioactivity 75:133-142.

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Amano, H. And Y. Onuma. 2003. Depth profiles of long lived radionuclides in Chernobyl soils sampled around 10 years after the accident. Journal of Radioanalytical and Nuclear Chemistry 255(1):217‑222.

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Andersen, T.J., O.A. Mikkelsen, A.L. Moller, and M. Pejrup. 2000. Deposition and mixing depths on some European intertidal mudflats based on Pb‑210 and Cs‑137 activities. Continental Shelf Research 20(12‑13):569‑1591.

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Anderson, L.G., K.A. Carlsson, P.O.J. Hall, E. Holm, D. Josefsson, K. Olsson, B.R.R. Persson, T. Persson, P. Roos, A. Tengberg, and M. Wedborg. 1999. The effect of the Siberian Tundra on the environment of the shelf seas and the Arctic Ocean. Ambio 28(3):270‑280.

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Anderson, N.J. 1989. A whole-basin diatom accumulation rate for a small eutrophic lake in Northern Ireland and its palaeoecological implications. Journal of Ecology 77:926-946.

Anderson, N.J., and B.V. Odgaard. 1994. Recent paleoliminology of three shallow Danish Lakes. Hydrobiologia 275/276:411-422.

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Anderson, R.F., S.L. Schiff, and R.H. Hesslein. 1987. Determining sediment accumulation and mixing rates using 210Pb, 137Cs and other tracers: problems due to postdepositional mobility or coring artifacts. Canadian Journal of Fisheries and Aquatic Science 44:231‑250.

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Andersson, K.G., and J. Roed. 1994. The behaviour of Chernobyl Cs‑137, Cs‑134 and Ru‑106 in undisturbed soil ‑ Implications for external radiation. Journal of Environmental Radioactivity 22:183‑196.

Andolina, J., and O.Guillitte. 1990. Radiocesium availability and retention sites in forest humus, pp. 135-142. In: G. Desmet, P. Nassimbeni, and M. Belli (eds.) Transfer of radionuclides in natural and semi-natural environments. Proceedings CEC International Conference, Passariano, Italy, 11-15 September 1999., Elsevier Applied Science, London.

Andrello, A.C. 1997. Metodologia do 137Cs para determinação da erosão e deposição de solo em uma bacia de solo LRd do norte do Paraná. Master=s degree dissertation. Universidade Estadual de Londrina. Londrina, Paraná, Brazil.

Andrello, A.C. and C.R. Appoloni. 2005. Cesium-137 inventories in areas of the native forest and undisturbed pasture: a comparison. Papers for poster presentation at the Sediment Budgets Symposium B VII IAHS Scientific Assembly, Foz do Iguaçu, PR, Brazil, 4-9 April 2005. CD Rom, 8 pp.

Andrello, A.C., C.R. Appoloni, and M.F. Guimaraes. 2004. Soil erosion determination in a watershed from Northern Parana (Brazil) using 137Cs. Brazilian Archives of Biology and Technology 47(4):659‑667.

Andrello, A.C., C.R. Appoloni, and M.F. Guimaraes. 2003. Use of cesium‑137 to assess soil erosion plates under soybean, coffee and pasture. Revista Brasileira de Ciencia do Solo 27(2):223‑229.

Andrello, A.C., C.R. Appoloni, and P.S. Pariera. 1998. Metodologia do 137Cs para determinação da erosão de solo em uma bacia do norte do Paraná. In II Simpósio Nacional de Instrumentação Agropecuária, São Carlos, São Paulo, Brazil. pp. 197-203.

Andrello, A.C., C.R. Appoloni, and P.S. Pariera. 1997. Determinação da erosão/sedimentação do solo por meio da medida da concentração de 137Cs. In CD-Rom of 4th Meeting on Nuclear Applications, Poços de Caldas, Minas Gerais, Brazil.

Andrello, A.C., C.R. Appoloni, P.S. Parreira, and M.F.Guimaraes. 2001. A preliminary survey of soil erosion in a small basin in the Parana State by using Cs‑137 methodology. Radiation Physics and Chemistry 61(3‑6):635‑636.

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E (click here to return to index)

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Mabit, L., M.C. Bélanger, M.R. Laverdière, C. Bernard, and M. Duchemin. 2002. Selectivity study of water erosion processes to improve its modelling for an agro-environmental evaluation. Agrosol 13(1):4B13. (French)

Mabit, L., and C. Bernard. 2006. Test of 134Cs as soil tracer under rainfall simulation. In: IAEA‑Soils Newsletter, Vol. 28(2), Laboratory Activities‑Research: p. 22.

Mabit, L., and C. Bernard. 2007. Assessment of spatial distribution of fallout radionuclides through geostatistics concepts. Journal of Environmental Radioactivity 97:206-219.

Mabit, L., and C. Bernard. 2006. Spatial variability of erosion as evidenced from 137Cs and organic matter content measurements and some soil parameters at the field scale in the Boyer River watershed (Canada). In: The 14th Conference of International Soil Conservation Organization and Water Management and Soil Conservation in Semi‑Arid Environments. Final Program and Book of Abstracts. Edition INRA 2006. ISBN: 9954‑0‑6653‑5. Page 241 & CD‑Room of the proceedings in .pdf format extended summary of 4 pages.

Mabit, L., and C. Bernard. 2005. Study of water erosion processes using radioisotopes. In: IAEA‑Soils Newsletter, Vol. 28 (1)‑July 2005, Laboratory Activities and Research: p. 20‑21

Mabit, L., and C. Bernard. 1998. Relationship between soil Cs‑137 inventories and chemical properties in a small intensively cropped watershed. Comptes Rendus Acad. Science Ser II‑A 327(8):527‑532.

Mabit, L., and C. Bernard. 1998. Relationship between soil Cs‑137 inventories and chemical properties in a small intensively cropped watershed. Earth and Planetary Sciences 327:527‑532.

Mabit, L., C. Bernard,. and M.R. Laverdiere. 2007. Assessment of erosion in the Boyer River watershed (Canada) using GIS oriented sampling strategy and 137Cs measurements. Catena 71:242-249.

Mabit, L., C. Bernard,. and M.R. Laverdiere. 2006. Sediment production using 137Cs and GIS in an agricultural watershed. In: IAEA‑Soils Newsletter, Vol. 29(1), Laboratory Activities‑Research: p. 16‑18.

Mabit, L., C. Bernard, and M.R. Laverdière. 2002. Quantification of soil redistribution and sediment budget in a Canadian watershed from fallout caesium-137 (137Cs) data. Canadian Journal of Soil Science 82(4):423B431.

Mabit, L., C. Bernard, and M.R. Laverdière. 2002. Influence of the sampling strategy on soil loss assessments from 137Cs measurements. p. 2083B2090(2). In : J.L Rubio, R.P.C. Morgan, S. Asins and V. Andreu (ed.), Man and Soil at the third Millenium. Geoforma Ediciones, Logroño, Spain.

Mabit, L., C. Bernard, and M.R. Laverdière. 2000. Water erosion studies in Quebec. Vecteur Environment 33(6):34B43. (French)

Mabit, L., C. Bernard, M.R. Laverdiére, and S. Wicherek. 1999. Assessment of soil erosion in a small agricultural basin of the St. Lawrence River watershed. Hydrobiologia 410:263-268.

Mabit, L., C. Bernard, M.R. Laverdiére, and S. Wicherek. 1998. Spatialsation et cartographie des risques érosifs à l=échelle d=un bassin versant agricole par un radio-isotope (137Cs). Étude et Gestion des Sols 5(3):171-180.

Mabit, L., C. Bernard, M. Makhlouf, and M.R. Laverdiere. 2008. Spatial variability of erosion and soil organic matter content estimated from 137Cs measurements and geostatistics. Geoderma 145(3/4):245-251.

Mabit, L., C. Bernard, and M. Melero Urzainqui. 2006. Test of 134Cs as soil erosion tracer under rainfall simulation. In: Geophysical Research Abstracts (CD‑Rom), Volume 8, European Geosciences Union ‑ General Assembly 2006, ISSN: 1029‑7006. Abstract EGU06‑J‑01245. pdf, 2 pages.

Mabit, L., C. Bernard, and M. Melero Urzainqui. 2006. Impact of the soil sample intensity on soil erosion estimation using 137Cs methodology. In: Geophysical Research Abstracts (CD‑Rom), Volume 8, European Geosciences Union ‑ General Assembly 2006, ISSN: 1029‑7006. Abstract EGU06‑J‑01246. pdf, 2 pages.

Mabit, L., C. Bernard, M. Melero Urzainqui, and M. Makhlouf. 2006. Application of geostatistics concept in agri‑environmental sciences: A case study addressing soil and organic matter redistribution by erosion processes to assess soil fertility and establish sediment budget. p. 183‑186. In: G. Kammerer and F. Kastanek (eds.). Soil Physics and Rural Water Management‑Progress, Needs and Challenges. Proceedings of the International Symposium SOPHYWA. 28‑29 September 2006. Vienna, Austria. ISBN‑13: 978‑3‑900962‑65‑4.

Mabit, L., C. Bernard, S. Wicherek, and M.R. Laverdiére. 2002. Vertical redistribution of radio-caesium (137Cs) in an undisturbed organic soil of northeastern France. In : R.J. Allison, ed. John Wiley & Sons (UK). Applied Geomorphology, Theory and Practice. Chapter XII: 197-203.

Mabit, L., and E. Fulajtar. 2007. The use of 137Cs to assess soil erosion and sedimentation processes: advantages and limitations. Book of the extended Synopses of the International Conference on Environmental Radioactivity: From Measurements and Assessments to Regulation. IAEA Publication. IAEA-CN 145, pp. 338–339.

Mabit, L., M.R. Laverdière, and C. Bernard. 2002. Water erosion: methods and case studies in Northern France. Cahiers Agricultures 11(3):195B206. (French)

Mabit, L., A. Klik, M. Benmansour, A. Toloza, A. Geisler, and U.C. Gerstmann. 2008. Assessment of erosion and sedimentation rates using 137Cs, 210Pbex and conventional erosion measurements within an Austrian watershed (Mistelbach). International Atomic Energy Agency Soils Newsletter 31(1):18-20.

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